Grid edge intelligence

What is claimed is: 1 . An electric grid operation system comprising: a central controller layer configured to monitor conditions of an electric grid and control operations of the electric grid; an intermediate controller layer in communication with the central controller layer, wherein the intermediate controller layer comprises a plurality of hubs configured to monitor operations of grid edge devices connected to different regions of the electric grid; wherein the central controller layer is configured to perform operations comprising: obtaining, from each hub, sensor data corresponding to measurements performed by the grid edge devices monitored by the hub; determining, based on the sensor data and expected grid-wide operations, individual control strategies for each different region of the electric grid, wherein each control strategy comprises expected electrical operating conditions for the respective region of the electric grid over a period of time; and providing a respective control strategy to each hub; and wherein each hub of the plurality of hubs in the intermediate controller layer is configured to perform operations comprising: in response to receiving the respective control strategy for the hub, generating one or more operational parameters for at least one grid edge device for the operation of the electric grid, wherein generating the one or more operational parameters is based on the expected amount of power flow for the hub; and providing the one or more operational parameters to the least one grid edge device, wherein providing the one or more operational parameters causes the at least one grid edge device to adjust its operation. 2 . The electric grid operation system of claim 1 , wherein the expected electrical operating conditions of the control strategy for the region comprise at least one of (i) a power flow, (ii) voltage fluctuations, or (iii) a power factor, for the region. 3 . The electric grid operation system of claim 1 , wherein the central controller layer monitoring conditions of the electric grid further comprises obtaining geographical data related to the electric grid, wherein the geographical data includes weather conditions of the electric grid. 4 . The electric grid operation system of claim 3 , wherein the data related to the electric grid comprises at least one of (i) market data, (ii) distribution management data, or (iii) energy management data. 5 . The electric grid operation system of claim 1 , wherein the different regions of the electric grid comprise one or more different electrical feeders. 6 . The electric grid operation system of claim 1 , wherein the at least one grid edge device is an inverter and wherein providing the one or more operational parameters to the inverter causes the inverter to operate autonomously within the one or more operational parameters. 7 . The electric grid operation system of claim 1 , wherein the grid edge devices comprise one or more of: (i) an inverter, (ii) an energy storage device, (iii) an electric vehicle charging station, or (iv) a solar panel. 8 . The electric grid operation system of claim 1 , wherein each of the hubs are configured to report electric grid data for the respective region of the hub, the electric grid data representing (historical/current) measurements of respective grid edge devices. 9 . The electric grid operation system of claim 1 , wherein obtaining, by the central controller layer, the sensor data corresponding to the measurements performed by the grid edge devices comprises transmitting a request for the sensor data to at least one hub of the plurality of hubs and, in response to the request, receiving the sensor data from respective grid edge devices associated with the at least one hub. 10 . The electric grid operation system of claim 1 , wherein determining, by the central controller layer, the individual control strategies for each different region of the electric grid comprises performing data analytics using the sensor data and the expected grid-wide operations. 11 . The electric grid operation system of claim 10 , wherein performing data analytics further comprises determining at least one of (i) battery charging and discharging patterns, (ii) volt/var optimization, or (iii) power quality improvement. 12 . The electric grid operation system of claim 10 , wherein the expected grid-wide operations further comprises weather data related to geographic regions encompassed by the electric grid. 13 . The electric grid operation system of claim 1 , wherein the central controller layer is configured to perform operations comprising: updating a model based on the sensor data from each of the hubs; and determining, using the model, expected loads for each region in the electric grid during the period of time. 14 . The electric grid operation system of claim 1 , wherein the central controller layer is configured to publish one or more of the individual control strategies to the intermediate controller layer, and the plurality of hubs are configured to subscribe to the intermediate controller layer to receive the respective one or more of the individual control strategies. 15 . The electric grid operation system of claim 1 , wherein the plurality of hubs is configured to provide the one or more operational parameters to incrementally adjust operation of the at least one grid edge device. 16 . An electric grid operation method executed by one or more computers of an intermediate controller layer of a grid control architecture, the method comprising: communicating sensor data from one or more grid edge devices under supervision of the intermediate controller layer to a central controller layer of the grid control architecture, the sensor data representing grid operating conditions at the one or more grid edge devices, and the intermediate controller layer configured to monitor operations of grid edge devices within a region of an electric grid; receiving, from the central controller layer, a control strategy for the region of the electric grid, wherein the control strategy comprises expected electrical operating conditions for the region of the electric grid over a period of time; determining, based on the control strategy, one or more operational parameters for at least one grid edge device, wherein the one or more operational parameters provide constraints for autonomous operations of the at least one grid edge device during the time period based on the expected electrical operating conditions of the region of the electric grid; and providing the one or more operational parameters to the least one grid edge device, wherein providing the one or more operational parameters causes the at least one grid edge device to adjust its operation. 17 . The electric grid operation method of claim 16 , wherein the region comprises an electrical feeder. 18 . The electric grid operation method of claim 16 , wherein the at least one grid edge device is an inverter and wherein providing the one or more operational parameters to the inverter causes the inverter to operate autonomously within the one or more operational parameters. 19 . The electric grid operation method of claim 16 , wherein the expected electrical operating conditions of the control strategy for the region comprise at least one of (i) a power flow, (ii) voltage fluctuations, or (iii) a power factor, for the region. 20 . The electric grid operation method of claim 16 , wherein the grid edge devices comprise one or more of: (